Identification of two 17-kDa rat parotid gland phosphoproteins, subjects for dephosphorylation upon beta-adrenergic stimulation, as destrin- and cofilin-like proteins

We previously reported that when 32Pi-loaded rat parotid slices are incubated with the beta-adrenergic agonist isoproterenol, the level of a soluble 32P-labeled 17-kDa protein (pp17) decreases rapidly (Kanamori, T., and Hayakawa, T. (1982) Biochem. Int. 4, 517-523). Here we show that pp17 consists of two distinct phosphoproteins (pp17a and pp17b), identify their unphosphorylated forms (p17a and p17b, respectively), and provide evidence for their beta-adrenergic stimulation-induced dephosphorylation. Since p17a and p17b were predominant forms even in nonstimulated cells, peptides were generated from them with Staphylococcus aureus V8 protease or cyanogen bromide; subsequent sequencing of these peptides and homology search allowed identification of p17a and p17b as destrin- and cofilin-like proteins, respectively. Interestingly, they were also dephosphorylated in response to cholinergic stimulation. Because destrin and cofilin are actin-depolymerizing proteins whose activities are possibly regulated by their phosphorylation/dephosphorylation, the two parotid proteins reported here might be involved in cortical F-actin disruption observed in parallel with exocytotic amylase secretion.

Ion-exchange chromatography of ionic detergent-solubilized proteins: application to purification of rat parotid gland phosphoproteins including ribosomal protein S6

A method is described for separation of ionic detergent-solubilized proteins by ion-exchange chromatography. This method has been developed for purification of two phosphoproteins (Mr 19,000 and 30,000) from 32Pi-prelabeled, isoproterenol-stimulated rat parotid tissue and is based on the observation that, in the presence of urea and Nonidet-P40, ionic detergent-solubilized proteins can be adsorbed by ion exchangers according to their own charge. After adsorption, proteins were eluted with a stepwise gradient of NaCl in a urea-containing buffer. By the procedure described, the 30 kDa phosphoprotein was freed from other 32P-labeled substances; and it was identified as ribosomal protein S6 that was phosphorylated at some serine residues. The method is generally applicable and especially suited for preliminary purification of hydrophobic proteins subjected to analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis.